NGSIToMySQL

Functionality

NGSIToMySQL, is a processor designed to persist NGSI-like context data events within a MySQL server. Usually, such a context data is notified by a Orion Context Broker instance, but could be any other system speaking the NGSI language.

Independently of the data generator, NGSI context data is always transformed into internal NGSIEvent objects at Draco sources. In the end, the information within these events must be mapped into specific MySQL data structures.

Next sections will explain this in detail.

Mapping NGSI events to NGSIEvent objects

Notified NGSI events (containing context data) are transformed into NGSIEvent objects (for each context element a NGSIEvent is created; such an event is a mix of certain headers and a ContextElement object), independently of the NGSI data generator or the final backend where it is persisted.

This is done at the Draco Listen HTTP Processor (also with the same name in native NiFi) received as FlowFile. This processor map the flow file attributes and content into a NGSI event. Once translated, the data (now, as NGSIEvent objects) is put into the internal channels for future consumption (see next section).

Mapping NGSIEvents to MySQL data structures

MySQL organizes the data in databases that contain tables of data rows. Such organization is exploited by NGSIToMySQL each time a NGSIEvent is going to be persisted.

MySQL databases naming conventions

A database named as the notified fiware-service header value (or, in absence of such a header, the defaulted value for the FIWARE service) is created (if not existing yet).

It must be said MySQL only accepts alphanumerics $ and _. This leads to certain encoding is applied depending on the enable_encoding configuration parameter.

MySQL databases name length is limited to 64 characters.

MySQL tables naming conventions

The name of these tables depends on the configured data model (see the Configuration section for more details):

  • Data model by service path (data_model=dm-by-service-path). As the data model name denotes, the notified FIWARE service path (or the configured one as default in NGSIRestHandler is used as the name of the table. This allows the data about all the NGSI entities belonging to the same service path is stored in this unique table. The only constraint regarding this data model is the FIWARE service path cannot be the root one (/).
  • Data model by entity (data_model=dm-by-entity). For each entity, the notified/default FIWARE service path is concatenated to the notified entity ID and type in order to compose the table name. The concatenation character is _ (underscore). If the FIWARE service path is the root one (/) then only the entity ID and type are concatenated.

It must be said MySQL only accepts alphanumerics $ and _. This leads to certain encoding is applied depending on the enable_encoding configuration parameter.

MySQL tables name length is limited to 64 characters.

The following table summarizes the table name composition (old encoding):

FIWARE service path dm-by-service-path dm-by-entity
/ N/A <entityId>_<entityType>
/<svcPath> <svcPath> <svcPath>_<entityId>_<entityType>

The following table summarizes the table name composition (new encoding):

FIWARE service path dm-by-service-path dm-by-entity
/ x002f x002fxffff<entityId>xffff<entityType>
/<svcPath> x002f<svcPath> x002f<svcPath>xffff<entityId>xffff<entityType>

Please observe the concatenation of entity ID and type is already given in the notified_entities/grouped_entities header values (depending on using or not the grouping rules, see the Configuration section for more details) within the NGSIEvent.

Row-like storing

Regarding the specific data stored within the above table, if attr_persistence parameter is set to row (default storing mode) then the notified data is stored attribute by attribute, composing an insert for each one of them. Each insert contains the following fields:

  • recvTimeTs: UTC timestamp expressed in miliseconds.
  • recvTime: UTC timestamp in human-readable format (ISO 8601).
  • fiwareServicePath: Notified fiware-servicePath, or the default configured one if not notified.
  • entityId: Notified entity identifier.
  • entityType: Notified entity type.
  • attrName: Notified attribute name.
  • attrType: Notified attribute type.
  • attrValue: In its simplest form, this value is just a string, but since Orion 0.11.0 it can be Json object or Json array.
  • attrMd: It contains a string serialization of the metadata array for the attribute in Json (if the attribute hasn't metadata, an empty array [] is inserted).

Column-like storing

Regarding the specific data stored within the above table, if attr_persistence parameter is set to column then a single line is composed for the whole notified entity, containing the following fields:

  • recvTime: Timestamp in human-readable format (Similar to ISO 8601, but avoiding the Z character denoting UTC, since all MySQL timestamps are supposed to be in UTC format).
  • fiwareServicePath: The notified one or the default one.
  • entityId: Notified entity identifier.
  • entityType: Notified entity type.
  • For each notified attribute, a field named as the attribute is considered. This field will store the attribute values along the time.
  • For each notified attribute, a field named as the concatenation of the attribute name and _md is considered. This field will store the attribute's metadata values along the time.

Example

NGSIEvent

Assuming the following NGSIEvent is created from a notified NGSI context data (the code below is an object representation, not any real data format):

    ngsi-event={
        headers={
             content-type=application/json,
             timestamp=1429535775,
             transactionId=1429535775-308-0000000000,
             correlationId=1429535775-308-0000000000,
             fiware-service=vehicles,
             fiware-servicepath=/4wheels,
             <grouping_rules_interceptor_headers>,
             <name_mappings_interceptor_headers>
        },
        body={
            entityId=car1,
            entityType=car,
            attributes=[
                {
                    attrName=speed,
                    attrType=float,
                    attrValue=112.9
                },
                {
                    attrName=oil_level,
                    attrType=float,
                    attrValue=74.6
                }
            ]
        }
    }

Database and table names

The MySQL database name will always be vehicles.

The MySQL table names will be, depending on the configured data model, the following ones (old encoding):

FIWARE service path dm-by-service-path dm-by-entity
/ N/A car1_car
/4wheels 4wheels 4wheels_car1_car

Using the new encoding:

FIWARE service path dm-by-service-path dm-by-entity
/ x002f car1xffffcar
/wheels x002f4wheels x002f4wheelsxffffcar1xffffcar

Row-like storing

Assuming attr_persistence=row as configuration parameter, then NGSIToMySQL will persist the data within the body as:

mysql> select * from 4wheels_car1_car;
+------------+----------------------------+-------------------+----------+------------+-------------+-----------+-----------+--------+
| recvTimeTs | recvTime                   | fiwareServicePath | entityId | entityType | attrName    | attrType  | attrValue | attrMd |
+------------+----------------------------+-------------------+----------+------------+-------------+-----------+-----------+--------+
| 1429535775 | 2015-04-20T12:13:22.41.124 | 4wheels           | car1     | car        |  speed      | float     | 112.9     | []     |
| 1429535775 | 2015-04-20T12:13:22.41.124 | 4wheels           | car1     | car        |  oil_level  | float     | 74.6      | []     |
+------------+----------------------------+-------------------+----------+------------+-------------+-----------+-----------+--------+
2 row in set (0.00 sec)

Column-like storing

If attr_persistence=colum then NGSIToMySQL will persist the data within the body as:

mysql> select * from 4wheels_car1_car;
+------------+----------------------------+-------------------+----------+------------+-------------+-----------+-----------+--------+
| recvTimeTs | recvTime                   | fiwareServicePath | entityId | entityType | attrName    | attrType  | attrValue | attrMd |
+------------+----------------------------+-------------------+----------+------------+-------------+-----------+-----------+--------+
| 1429535775 | 2015-04-20T12:13:22.41.124 | 4wheels           | car1     | car        |  speed      | float     | 112.9     | []     |
| 1429535775 | 2015-04-20T12:13:22.41.124 | 4wheels           | car1     | car        |  oil_level  | float     | 74.6      | []     |
+------------+----------------------------+-------------------+----------+------------+-------------+-----------+-----------+--------+
2 row in set (0.00 sec)

Administration guide

Configuration

NGSIToMySQL is configured through the following parameters(the names of required properties appear in bold)):

Name Default Value Allowable Values Description
JDBC Connection Pool no Controller service for connecting to a specific database engine
NGSI version v2 list of supported version of NGSI (v2 and ld), currently only support v2
Data Model db-by-entity The Data model for creating the tables when an event have been received you can choose between: db-by-service-path or db-by-entity, default value is db-by-service-path
Attribute persistence row row, column The mode of storing the data inside of the table allowable values are row and column
Default Service test In case you dont set the Fiware-Service header in the context broker, this value will be used as Fiware-Service
Default Service path /path In case you dont set the Fiware-ServicePath header in the context broker, this value will be used as Fiware-ServicePath
Enable encoding true true, false true applies the new encoding, false applies the old encoding.
Enable lowercase true true, false true for creating the Schema and Tables name with lowercase.
Batch size 10 The preferred number of FlowFiles to put to the database in a single transaction
Rollback on failure false true, false Specify how to handle error. By default (false), if an error occurs while processing a FlowFile, the FlowFile will be routed to 'failure' or 'retry' relationship based on error type, and processor can continue with next FlowFile. Instead, you may want to rollback currently processed FlowFiles and stop further processing immediately. In that case, you can do so by enabling this 'Rollback On Failure' property. If enabled, failed FlowFiles will stay in the input relationship without penalizing it and being processed repeatedly until it gets processed successfully or removed by other means. It is important to set adequate 'Yield Duration' to avoid retrying too frequently.

A configuration example could be:

mysql-processor

Use cases

Use NGSIToMySQL if you are looking for a database storage not growing so much in the mid-long term.

Important notes

About the table

The table type configuration parameter, as seen, is a method for direct aggregation of data: by default destination (i.e. all the notifications about the same entity will be stored within the same MySQL table) or by default service-path (i.e. all the notifications about the same service-path will be stored within the same MySQL table).

About the persistence mode

Please observe not always the same number of attributes is notified; this depends on the subscription made to the NGSI-like sender. This is not a problem for the row persistence mode, since fixed 8-fields data rows are inserted for each notified attribute. Nevertheless, the column mode may be affected by several data rows of different lengths (in term of fields). Thus, the column mode is only recommended if your subscription is designed for always sending the same attributes, event if they were not updated since the last notification.

In addition, when running in column mode, due to the number of notified attributes (and therefore the number of fields to be written within the Datastore) is unknown by Draco, the table can not be automatically created, and must be provisioned previously to the Draco execution. That's not the case of the row mode since the number of fields to be written is always constant, independently of the number of notified attributes.

About batching

As explained in the programmers guide, NGSIToMySQL extends NGSISink, which provides a built-in mechanism for collecting events from the internal Flume channel. This mechanism allows extending classes have only to deal with the persistence details of such a batch of events in the final backend.

What is important regarding the batch mechanism is it largely increases the performance of the sink, because the number of writes is dramatically reduced. Let's see an example, let's assume a batch of 100 NGSIEvents. In the best case, all these events regard to the same entity, which means all the data within them will be persisted in the same MySQL table. If processing the events one by one, we would need 100 inserts into MySQL; nevertheless, in this example only one insert is required. Obviously, not all the events will always regard to the same unique entity, and many entities may be involved within a batch. But that's not a problem, since several sub-batches of events are created within a batch, one sub-batch per final destination MySQL table. In the worst case, the whole 100 entities will be about 100 different entities (100 different MySQL tables), but that will not be the usual scenario. Thus, assuming a realistic number of 10-15 sub-batches per batch, we are replacing the 100 inserts of the event by event approach with only 10-15 inserts.

The batch mechanism adds an accumulation timeout to prevent the sink stays in an eternal state of batch building when no new data arrives. If such a timeout is reached, then the batch is persisted as it is.

Regarding the retries of not persisted batches, a couple of parameters is used. On the one hand, a Time-To-Live (TTL) is used, specifing the number of retries Draco will do before definitely dropping the event. On the other hand, a list of retry intervals can be configured. Such a list defines the first retry interval, then se second retry interval, and so on; if the TTL is greater than the length of the list, then the last retry interval is repeated as many times as necessary.

By default, NGSIToMySQL has a configured batch size and batch accumulation timeout of 1 and 30 seconds, respectively. Nevertheless, as explained above, it is highly recommended to increase at least the batch size for performance purposes. Which are the optimal values? The size of the batch it is closely related to the transaction size of the channel the events are got from (it has no sense the first one is greater then the second one), and it depends on the number of estimated sub-batches as well. The accumulation timeout will depend on how often you want to see new data in the final storage.

Time zone information

Time zone information is not added in MySQL timestamps since MySQL stores that information as a environment variable. MySQL timestamps are stored in UTC time.

About the encoding

Until version 1.2.0 (included), Draco applied a very simple encoding:

  • All non alphanumeric characters were replaced by underscore, _.
  • The underscore was used as concatenator character as well.
  • The slash, /, in the FIWARE service paths is ignored.

From version 1.3.0 (included), Draco applies this specific encoding tailored to MySQL data structures:

  • Alphanumeric characters are not encoded.
  • Numeric characters are not encoded.
  • Underscore character, _, is not encoded.
  • Equals character, =, is encoded as xffff.
  • All other characters, including the slash in the FIWARE service paths, are encoded as a x character followed by the Unicode of the character.
  • User defined strings composed of a x character and a Unicode are encoded as xx followed by the Unicode.
  • All the other characters are not encoded.
  • xffff is used as concatenator character.

Despite the old encoding will be deprecated in the future, it is possible to switch the encoding type through the enable_encoding parameter as explained in the configuration section.

About capping resources and expirating records

Capping and expiration are disabled by default. Nevertheless, if desired, this can be enabled:

  • Capping by the number of records. This allows the resource growing up until certain configured maximum number of records is reached (persistence_policy.max_records), and then maintains such a constant number of records.
  • Expirating by time the records. This allows the resource growing up until records become old, i.e. exceed certain configured expiration time (persistence_policy.expiration_time).